Output Current for Boost Regulator (DCM) Solution

STEP 0: Pre-Calculation Summary
Formula Used
Output Current of Boost DCM = ((Input Voltage of Boost DCM^2)*Duty Cycle of Boost DCM^2*Time Commutation of Boost DCM)/(2*Critical Inductance of Boost DCM*(Output Voltage of Boost DCM-Input Voltage of Boost DCM))
io(bo_dcm) = ((Vi(bo_dcm)^2)*Dbo_dcm^2*tc(bo_dcm))/(2*Lx(bo_dcm)*(Vo(bo_dcm)-Vi(bo_dcm)))
This formula uses 6 Variables
Variables Used
Output Current of Boost DCM - (Measured in Ampere) - Output Current of Boost DCM is the current the amplifier draws from the signal source.
Input Voltage of Boost DCM - (Measured in Volt) - Input Voltage of Boost DCM is the voltage supplied to the voltage regulator circuit.
Duty Cycle of Boost DCM - A Duty Cycle of Boost DCM or power cycle is the fraction of one period in which a signal or system is active in a voltage regulator circuit.
Time Commutation of Boost DCM - (Measured in Second) - The Time Commutation of Boost DCM is the process of transferring current from one connection to another within an electric circuit such as voltage regulator circuit.
Critical Inductance of Boost DCM - (Measured in Henry) - Critical Inductance of Boost DCM refers to the minimum value of the inductance required in these converters to maintain discontinuous current flow through the inductor.
Output Voltage of Boost DCM - (Measured in Volt) - Output Voltage of Boost DCM signifies the voltage of the signal after it has been regulated by a voltage regulator circuit.
STEP 1: Convert Input(s) to Base Unit
Input Voltage of Boost DCM: 9.71 Volt --> 9.71 Volt No Conversion Required
Duty Cycle of Boost DCM: 0.0359 --> No Conversion Required
Time Commutation of Boost DCM: 4.063 Second --> 4.063 Second No Conversion Required
Critical Inductance of Boost DCM: 0.4191 Henry --> 0.4191 Henry No Conversion Required
Output Voltage of Boost DCM: 10.006 Volt --> 10.006 Volt No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
io(bo_dcm) = ((Vi(bo_dcm)^2)*Dbo_dcm^2*tc(bo_dcm))/(2*Lx(bo_dcm)*(Vo(bo_dcm)-Vi(bo_dcm))) --> ((9.71^2)*0.0359^2*4.063)/(2*0.4191*(10.006-9.71))
Evaluating ... ...
io(bo_dcm) = 1.98991631041753
STEP 3: Convert Result to Output's Unit
1.98991631041753 Ampere --> No Conversion Required
FINAL ANSWER
1.98991631041753 1.989916 Ampere <-- Output Current of Boost DCM
(Calculation completed in 00.004 seconds)

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5 Discontinuous Conduction Mode Calculators

Duty Cycle for Boost Regulator (DCM)
Go Duty Cycle of Boost DCM = sqrt((2*Critical Inductance of Boost DCM*Output Current of Boost DCM/(Input Voltage of Boost DCM*Time Commutation of Boost DCM))*((Output Voltage of Boost DCM/Input Voltage of Boost DCM)-1))
Commutation Period for Boost Regulator (DCM)
Go Time Commutation of Boost DCM = ((2*Critical Inductance of Boost DCM*Output Current of Boost DCM)/((Duty Cycle of Boost DCM^2)*Input Voltage of Boost DCM))*((Output Voltage of Boost DCM/Input Voltage of Boost DCM)-1)
Inductor Value for Boost Regulator (DCM)
Go Critical Inductance of Boost DCM = ((Input Voltage of Boost DCM^2)*(Duty Cycle of Boost DCM^2)*Time Commutation of Boost DCM)/(2*(Output Voltage of Boost DCM-Input Voltage of Boost DCM)*Output Current of Boost DCM)
Output Current for Boost Regulator (DCM)
Go Output Current of Boost DCM = ((Input Voltage of Boost DCM^2)*Duty Cycle of Boost DCM^2*Time Commutation of Boost DCM)/(2*Critical Inductance of Boost DCM*(Output Voltage of Boost DCM-Input Voltage of Boost DCM))
Output Voltage for Boost Regulator (DCM)
Go Output Voltage of Boost DCM = Input Voltage of Boost DCM+((Input Voltage of Boost DCM^2*Duty Cycle of Boost DCM^2*Time Commutation of Boost DCM)/(2*Critical Inductance of Boost DCM*Output Current of Boost DCM))

Output Current for Boost Regulator (DCM) Formula

Output Current of Boost DCM = ((Input Voltage of Boost DCM^2)*Duty Cycle of Boost DCM^2*Time Commutation of Boost DCM)/(2*Critical Inductance of Boost DCM*(Output Voltage of Boost DCM-Input Voltage of Boost DCM))
io(bo_dcm) = ((Vi(bo_dcm)^2)*Dbo_dcm^2*tc(bo_dcm))/(2*Lx(bo_dcm)*(Vo(bo_dcm)-Vi(bo_dcm)))

What is Boost Regulator (DCM)?

A Boost Regulator (DCM) is a DC-to-DC power converter that steps up the voltage from its input to its output.

How to Calculate Output Current for Boost Regulator (DCM)?

Output Current for Boost Regulator (DCM) calculator uses Output Current of Boost DCM = ((Input Voltage of Boost DCM^2)*Duty Cycle of Boost DCM^2*Time Commutation of Boost DCM)/(2*Critical Inductance of Boost DCM*(Output Voltage of Boost DCM-Input Voltage of Boost DCM)) to calculate the Output Current of Boost DCM, The Output Current for Boost Regulator (DCM) formula is defined as the difference between input and output voltage multiplied by duty cycle, time taken, and with the sum of duty cycle and delta then divided by twice of Inductance. Output Current of Boost DCM is denoted by io(bo_dcm) symbol.

How to calculate Output Current for Boost Regulator (DCM) using this online calculator? To use this online calculator for Output Current for Boost Regulator (DCM), enter Input Voltage of Boost DCM (Vi(bo_dcm)), Duty Cycle of Boost DCM (Dbo_dcm), Time Commutation of Boost DCM (tc(bo_dcm)), Critical Inductance of Boost DCM (Lx(bo_dcm)) & Output Voltage of Boost DCM (Vo(bo_dcm)) and hit the calculate button. Here is how the Output Current for Boost Regulator (DCM) calculation can be explained with given input values -> 1.989916 = ((9.71^2)*0.0359^2*4.063)/(2*0.4191*(10.006-9.71)).

FAQ

What is Output Current for Boost Regulator (DCM)?
The Output Current for Boost Regulator (DCM) formula is defined as the difference between input and output voltage multiplied by duty cycle, time taken, and with the sum of duty cycle and delta then divided by twice of Inductance and is represented as io(bo_dcm) = ((Vi(bo_dcm)^2)*Dbo_dcm^2*tc(bo_dcm))/(2*Lx(bo_dcm)*(Vo(bo_dcm)-Vi(bo_dcm))) or Output Current of Boost DCM = ((Input Voltage of Boost DCM^2)*Duty Cycle of Boost DCM^2*Time Commutation of Boost DCM)/(2*Critical Inductance of Boost DCM*(Output Voltage of Boost DCM-Input Voltage of Boost DCM)). Input Voltage of Boost DCM is the voltage supplied to the voltage regulator circuit, A Duty Cycle of Boost DCM or power cycle is the fraction of one period in which a signal or system is active in a voltage regulator circuit, The Time Commutation of Boost DCM is the process of transferring current from one connection to another within an electric circuit such as voltage regulator circuit, Critical Inductance of Boost DCM refers to the minimum value of the inductance required in these converters to maintain discontinuous current flow through the inductor & Output Voltage of Boost DCM signifies the voltage of the signal after it has been regulated by a voltage regulator circuit.
How to calculate Output Current for Boost Regulator (DCM)?
The Output Current for Boost Regulator (DCM) formula is defined as the difference between input and output voltage multiplied by duty cycle, time taken, and with the sum of duty cycle and delta then divided by twice of Inductance is calculated using Output Current of Boost DCM = ((Input Voltage of Boost DCM^2)*Duty Cycle of Boost DCM^2*Time Commutation of Boost DCM)/(2*Critical Inductance of Boost DCM*(Output Voltage of Boost DCM-Input Voltage of Boost DCM)). To calculate Output Current for Boost Regulator (DCM), you need Input Voltage of Boost DCM (Vi(bo_dcm)), Duty Cycle of Boost DCM (Dbo_dcm), Time Commutation of Boost DCM (tc(bo_dcm)), Critical Inductance of Boost DCM (Lx(bo_dcm)) & Output Voltage of Boost DCM (Vo(bo_dcm)). With our tool, you need to enter the respective value for Input Voltage of Boost DCM, Duty Cycle of Boost DCM, Time Commutation of Boost DCM, Critical Inductance of Boost DCM & Output Voltage of Boost DCM and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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